Emerson Automation Solutions – Rosemount TUpHFET™ Non-glass Submersion/Insertion pH Sensor Model TF396

Description
NO GLASS TO BREAK due to use of Ion-selective field effect transistor. Reduced drift with TUpH™ reference technology*. SUITABLE FOR USE AT COLD TEMPERATURES with continued rapid response and accuracy. REDUCED CALIBRATION FREQUENCY due to increased sensor stability. QUICK CABLE-TO-SENSOR RELEASE provided by waterproof electrode/cable connector. MINIMUM SENSOR MAINTENANCE due to TupH™ reference technology which ensures continued reference performance when the sensor becomes coated. OPTIMUM VERSATILITY by providing various mounting options. BUILT-IN CABLE CAP PREAMPLIFIER allows use with most pH instruments. The ion-selective field effect transistor (ISFET) pH electrode provides a stable pH measurement. Its rate of response can be ten times faster than glass electrodes, enabling better process control. Its short response time and increased stability at low temperatures make it suitable for use in cold processes like brine or water for cooling. Aging effects caused by temperature fluctuations or large changes of process pH are greatly reduced, providing longer intervals between calibration and maintenance of the sensor. Because there is no glass bulb, it can be used in many applications that restrict or prohibit pH glass electrodes due to the risk of broken glass getting into the process. It may also provide longer sensor life in processes that will break or crack pH glass bulbs. By allowing direct installation into the process, costs for laboratory analysis of sample lines are greatly reduced.
Datasheet
Description
NO GLASS TO BREAK due to use of Ion-selective field effect transistor. Reduced drift with TUpH™ reference technology*. SUITABLE FOR USE AT COLD TEMPERATURES with continued rapid response and accuracy. REDUCED CALIBRATION FREQUENCY due to increased sensor stability. QUICK CABLE-TO-SENSOR RELEASE provided by waterproof electrode/cable connector. MINIMUM SENSOR MAINTENANCE due to TupH™ reference technology which ensures continued reference performance when the sensor becomes coated. OPTIMUM VERSATILITY by providing various mounting options. BUILT-IN CABLE CAP PREAMPLIFIER allows use with most pH instruments. The ion-selective field effect transistor (ISFET) pH electrode provides a stable pH measurement. Its rate of response can be ten times faster than glass electrodes, enabling better process control. Its short response time and increased stability at low temperatures make it suitable for use in cold processes like brine or water for cooling. Aging effects caused by temperature fluctuations or large changes of process pH are greatly reduced, providing longer intervals between calibration and maintenance of the sensor. Because there is no glass bulb, it can be used in many applications that restrict or prohibit pH glass electrodes due to the risk of broken glass getting into the process. It may also provide longer sensor life in processes that will break or crack pH glass bulbs. By allowing direct installation into the process, costs for laboratory analysis of sample lines are greatly reduced.
Datasheet

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TUpHFET™ Non-glass Submersion/Insertion pH Sensor - Model TF396 - Emerson Automation Solutions – Rosemount
Irvine, CA, USA
TUpHFET™ Non-glass Submersion/Insertion pH Sensor
Model TF396
TUpHFET™ Non-glass Submersion/Insertion pH Sensor Model TF396
NO GLASS TO BREAK due to use of Ion-selective field effect transistor. Reduced drift with TUpH™ reference technology*. SUITABLE FOR USE AT COLD TEMPERATURES with continued rapid response and accuracy. REDUCED CALIBRATION FREQUENCY due to increased sensor stability. QUICK CABLE-TO-SENSOR RELEASE provided by waterproof electrode/cable connector. MINIMUM SENSOR MAINTENANCE due to TupH™ reference technology which ensures continued reference performance when the sensor becomes coated. OPTIMUM VERSATILITY by providing various mounting options. BUILT-IN CABLE CAP PREAMPLIFIER allows use with most pH instruments. The ion-selective field effect transistor (ISFET) pH electrode provides a stable pH measurement. Its rate of response can be ten times faster than glass electrodes, enabling better process control. Its short response time and increased stability at low temperatures make it suitable for use in cold processes like brine or water for cooling. Aging effects caused by temperature fluctuations or large changes of process pH are greatly reduced, providing longer intervals between calibration and maintenance of the sensor. Because there is no glass bulb, it can be used in many applications that restrict or prohibit pH glass electrodes due to the risk of broken glass getting into the process. It may also provide longer sensor life in processes that will break or crack pH glass bulbs. By allowing direct installation into the process, costs for laboratory analysis of sample lines are greatly reduced.
  • NO GLASS TO BREAK due to use of Ion-selective field effect transistor.
  • Reduced drift with TUpH™ reference technology*.
  • SUITABLE FOR USE AT COLD TEMPERATURES with continued rapid response and accuracy.
  • REDUCED CALIBRATION FREQUENCY due to increased sensor stability.
  • QUICK CABLE-TO-SENSOR RELEASE provided by waterproof electrode/cable connector.
  • MINIMUM SENSOR MAINTENANCE due to TupH™ reference technology which ensures continued reference performance when the sensor becomes coated.
  • OPTIMUM VERSATILITY by providing various mounting options.
  • BUILT-IN CABLE CAP PREAMPLIFIER allows use with most pH instruments.

The ion-selective field effect transistor (ISFET) pH electrode provides a stable pH measurement. Its rate of response can be ten times faster than glass electrodes, enabling better process control. Its short response time and increased stability at low temperatures make it suitable for use in cold processes like brine or water for cooling. Aging effects caused by temperature fluctuations or large changes of process pH are greatly reduced, providing longer intervals between calibration and maintenance of the sensor. Because there is no glass bulb, it can be used in many applications that restrict or prohibit pH glass electrodes due to the risk of broken glass getting into the process. It may also provide longer sensor life in processes that will break or crack pH glass bulbs. By allowing direct installation into the process, costs for laboratory analysis of sample lines are greatly reduced.

Supplier's Site Datasheet

Technical Specifications

  Emerson Automation Solutions – Rosemount
Product Category pH Electrodes
Product Number Model TF396
Product Name TUpHFET™ Non-glass Submersion/Insertion pH Sensor
Reference Solution Options Sealed
Junction Type Single Junction
Mounting Options In-Line (Insertion)
Body Material Epoxy or Polymer
Diameter/ Width 0.9800 inch (24.89 mm)
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